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Philippe Callac

Researcher at Institut national de la recherche agronomique

Publications -  79
Citations -  2458

Philippe Callac is an academic researcher from Institut national de la recherche agronomique. The author has contributed to research in topics: Agaricus bisporus & Agaricus. The author has an hindex of 24, co-authored 76 publications receiving 2115 citations.

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Fungal diversity notes 1–110: taxonomic and phylogenetic contributions to fungal species

Jian-Kui Liu, +103 more
- 04 May 2015 - 
TL;DR: This paper is a compilation of notes on 110 fungal taxa, including one new family, 10 new genera, and 76 new species, representing a wide taxonomic and geographic range.
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Preserving accuracy in GenBank

Thomas D. Bruns, +255 more
- 21 Mar 2008 - 
TL;DR: GenBank, the public repository for nucleotide and protein sequences, is a critical resource for molecular biology, evolutionary biology, and ecology as discussed by the authors, and some attention has been drawn to sequence errors ([1][1]), common annotation errors also reduce the value of this database.
Journal Article

Preserving accuracy in GenBank

Martin I. Bidartondo, +256 more
- 01 Jan 2008 - 
TL;DR: GenBank, the public repository for nucleotide and protein sequences, is a critical resource for molecular biology, evolutionary biology, and ecology and some attention has been drawn to sequence errors.
Journal ArticleDOI

Morphological, genetic, and interfertility analyses reveal a novel, tetrasporic variety of Agaricus bisporus from the Sonoran Desert of California

Philippe Callac, +3 more
- 01 Sep 1993 - 
TL;DR: A distinctive variety of A. bisporus has been discovered in several habitats in the low Sonoran Desert of the Coachella Valley of California at elevations below sea level and the tetrasporic character of the basidia is consistently predominant in this local population.
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The Agaricus bisporus cox1 gene: the longest mitochondrial gene and the largest reservoir of mitochondrial group i introns.

Cyril Férandon, +5 more
- 18 Nov 2010 - 
TL;DR: An exhaustive analysis of the group I introns available in cox1 genes shows that they are mobile genetic elements whose numerous events of loss and gain by lateral transfer combine to explain their wide and patchy distribution extending over several kingdoms.